Hurricane tracks from 1980 through 2014. Green tracks did not make landfall in US; yellow tracks made landfall but were not major hurricanes at the time; red tracks made landfall and were major hurricanes.

The Atlantic hurricane season is the period in a year when hurricanes usually form in the Atlantic Ocean. Tropical cyclones in the North Atlantic are called hurricanes, tropical storms, or tropical depressions. In addition, there have been several storms over the years that have not been fully tropical and are categorized as subtropical depressions and subtropical storms. Even though subtropical storms and subtropical depressions are not technically as strong as tropical cyclones, the damages can still be devastating.

Worldwide, tropical cyclone activity peaks in late summer, when the difference between temperatures aloft and sea surface temperatures is the greatest. However, each particular basin has its own seasonal patterns. On a worldwide scale, May is the least active month, while September is the most active.[2] In the Northern Atlantic Ocean, a distinct hurricane season occurs from June 1 to November 30, sharply peaking from late August through September;[2] the season's climatological peak of activity occurs around September 10 each season.[3] This is the norm, but in 1938, the Atlantic hurricane season started as early as January 3.

Tropical disturbances that reach tropical storm intensity are named from a pre-determined list. On average, 10.1 named storms occur each season, with an average of 5.9 becoming hurricanes and 2.5 becoming major hurricanes (Category 3 or greater). The most active season was 2005, during which 28 tropical cyclones formed, of which a record 15 became hurricanes. The least active season was 1914, with only one known tropical cyclone developing during that year.[4]
The Atlantic hurricane season is a time when most tropical cyclones are expected to develop across the northern Atlantic Ocean. It is currently defined as the time frame from June 1 through November 30, though in the past the season was defined as a shorter time frame. During the season, regular tropical weather outlooks are issued by the National Hurricane Center, and coordination between the Weather Prediction Center and National Hurricane Center occurs for systems which have not formed yet, but could develop during the next three to seven days.

The basic concept of a hurricane season began during 1935,[5] when dedicated wire circuits known as hurricane circuits began to be set up along the Gulf and Atlantic coasts,[6] a process completed by 1955.[7] It was originally the time frame when the tropics were monitored routinely for tropical cyclone activity, and was originally defined as from June 15 through October 31.[8] Over the years, the beginning date was shifted back to June 1, while the end date was shifted to November 15,[6] before settling at November 30 by 1965.[9][10] This was when hurricane reconnaissance planes were sent out to fly across the Atlantic and Gulf of Mexico on a routine basis to look for potential tropical cyclones, in the years before the continuous weather satellite era.[8] Since regular satellite surveillance began, hurricane hunter aircraft fly only into storm areas which are first spotted by satellite imagery.[11]

During the hurricane season, the National Hurricane Center routinely issues their Tropical Weather Outlook product, which identifies areas of concern within the tropics which could develop into tropical cyclones. If systems occur outside the defined hurricane season, special Tropical Weather Outlooks will be issued.[12] Routine coordination occurs at 1700 UTC each day between the Weather Prediction Center and National Hurricane Center to identify systems for the pressure maps three to seven days into the future within the tropics, and points for existing tropical cyclones six to seven days into the future.[13] Possible tropical cyclones are depicted with a closed isobar, while systems with less certainty to develop are depicted as "spot lows" with no isobar surrounding them.

The North atlantic hurricane database, or HURDAT, is the database for all tropical storms and hurricanes for the Atlantic Ocean, Gulf of Mexico and Caribbean Sea, including those that have made landfall in the United States. The original database of six-hourly positions and intensities were put together in the 1960s in support of the Apollo space program to help provide statistical track forecast guidance. In the intervening years, this database — which is now freely and easily accessible on the Internet from the National Hurricane Center's (NHC) webpage — has been utilized for a wide variety of uses: climatic change studies, seasonal forecasting, risk assessment for county emergency managers, analysis of potential losses for insurance and business interests, intensity forecasting techniques and verification of official and various model predictions of track and intensity.

HURDAT was not designed with all of these uses in mind when it was first put together and not all of them may be appropriate given its original motivation. HURDAT contains numerous systematic as well as some random errors in the database. Additionally, analysis techniques have changed over the years at NHC as their understanding of tropical cyclones has developed, leading to biases in the historical database. Another difficulty in applying the hurricane database to studies concerned with landfalling events is the lack of exact location, time and intensity at hurricane landfall.

HURDAT is regularly updated annually to reflect the previous season's activity. The older portion of the database has been regularly revised since 2001. The first time in 2001 led to the addition of tropical cyclone tracks for the years 1851 to 1885. The second time was August 1992 when Hurricane Andrew was upgraded to a Category 5. Recent efforts into uncovering undocumented historical hurricanes in the late 19th and 20th centuries by various researchers have greatly increased our knowledge of these past events. Possible changes for the years 1951 onward are not yet incorporated into the HURDAT database. Because of all of these issues, a re-analysis of the Atlantic hurricane database is being attempted that will be completed in three years.

In addition to the groundbreaking work by Partagas[context?], additional analyses, digitization and quality control of the data was carried out by researchers at the NOAA Hurricane Research Division funded by the NOAA Office of Global Programs. This re-analysis will continue to progress through the remainder of the 20th century.[14]

The National Hurricane Center's Best Track Change Committee has approved changes for a few recent cyclones, such as Hurricane Andrew. Official changes to the Atlantic hurricane database are approved by the National Hurricane Center Best Track Change Committee.

Seven hurricanes struck the United States, the most during a single year.[15]Indianola, Texas struck by two major hurricanes (1875 and 1886) which effectively closed down the town.[16][circular reference]

Tied for third most active season on record; with 1995, 2010, 2011, and 2012.Has the most storms forming outside the normal hurricane seasonOne of only 4 seasons to have both a preseason and postseason storm

Second costliest hurricane season on recordSeason holds most activity records, including cyclones, storms, hurricanes, major hurricanes and Category 5's (4)Most retired namesOnly year to use the Greek alphabetIncludes 1 subtropical storm and 1 subtropical depression

Tied for third most active season on record (with 1887, 1995, 2011, and 2012) Tied for second most hurricanes in a season on record with twelve (Alex, Danielle, Earl, Igor, Julia, Karl, Lisa, Otto, Paula, Richard, Shary, and Tomas) Record tying 8 named storms forming in September (Gaston through Nicole)

Tied for third most active season (with 1887, 1995, 2010, and 2011) Tied (with 2016) for most active season before July (Alberto through Debby) Record tying 8 named storms forming in August (Ernesto through Leslie [Leslie spanned most of September])

Includes one subtropical storm (Unnamed December SS [14L]) No major hurricanes, nor Category 2 hurricanes Tied (with 1982) for fewest hurricanes since 1930 (Humberto and Ingrid, a tie with Alberto and Debby in 1982)

Earliest start since 1938 (January 12, since January 3) Record for earliest formation of 3rd and 4th storm (Colin and Danielle) Tied (with 2012) for most active season before July (Alex through Danielle) Includes southernmost Category 5 on record, and the first since 2007 (Matthew, since Felix) First hurricane in 20 years to cross Central America into the Eastern Pacific basin (Otto)

Costliest hurricane season on record (US$294.67 Billion) First April system (Arlene) since 2003 (Ana) Earliest Main Development Region named storm on record (Bret) First U.S. major hurricane landfall since Wilma in 2005 (Harvey) Highest rainfall produced by a tropical cyclone in the United States and its territories (Maria) First-ever three Category 4 U.S. hurricane landfalls in a single season (Harvey, Irma, and Maria) Second season to feature multiple Category 5 landfalls after 2007 (Irma and Maria after Dean and Felix) Only one of four seasons to produce ten hurricanes in a row (Franklin through Ophelia) Only season on record with three hurricanes with an ACE value over 40 (Irma, Jose, and Maria) Most ACE produced in a single month in Atlantic basin (September, caused by Irma through Maria) Easternmost Major hurricane on record (Ophelia)

Includes a record seven subtropical storms (Alberto, Beryl, Debby, Ernesto, Joyce, Leslie, and Oscar) Fourth consecutive season for a storm to develop before the official start (Alberto) The first season on record to have a Category 5 hurricane present in the Atlantic and Pacific Ocean (Michael, followed by Lane, Walaka, and Willa) No tropical cyclones in June No hurricanes/major hurricanes in August No tropical cyclones in November

This bar chart shows the number of named storms and hurricanes per year from 1851–2018.

A 2011 study analyzing one of the main sources of hurricanes - the African easterly wave (AEW) - found that the change in AEWs is closely linked to increased activity of intense hurricanes in the North Atlantic. The synoptic concurrence of AEWs in driving the dynamics of the Sahel greening also appears to increase tropical cyclogenesis over the North Atlantic.[18]